YT3P Automatic Transfer Switch – 16A to 630A,3 Phase/Single Phase
The HYT3P is a PC-class automatic transfer switch rated 16A–630A for AC 230V (2-pole) and AC 400V (3-pole / 4-pole) dual power systems. Available in 2P, 3P, and 4P configurations for both single-phase and 3 phase applications. Integrated controller with automatic detection of undervoltage, phase loss, and loss of voltage. Contact transfer time ≤0.6s. Manual override via I–0–II switch positions. For critical backup power and generator changeover systems.
Standard: GB/T 14048.11
Rated Current: 16A – 630A
Poles: 2P (single-phase), 3P, 4P (3-phase)
Rated Voltage: AC 230V (2P) / AC 400V (3P, 4P)
Transfer Time: ≤0.6s (contact)
Product Grade: PC class
Applications: Generator backup, dual-grid, critical power
Product Information
HYT3P Automatic Changeover Switch – Seamless Dual Power Changeover, 16A to 630A
The HYT3P Automatic Changeover Switch, manufactured by HUYU Electric, can provide seamless dual supply changeover operation of any critical loads when power continuity is essential. Developed for 50Hz type AC 230V single phase and AC 400V 3 phase circuits, the HYT3P Automatic Transfer Switch constantly monitors its primary power supply and automatically transfers to the alternate supply within 0.6 seconds of a fault being detected. The HYT3P Automatic Changeover Switch is rated for a wide range of power levels (16A to 630A) with three frame sizes available (HYT3P-125, HYT3P-250, HYT3P-630), allowing the HYT3P to be used with residential standby generators or main electrical service connections in industrial buildings, depending on the frame size selected.
HUYU Electric provides complete factory direct OEM/ODM supply, full documentation, and private label options to buyers who are sourcing Automatic Changeover Switches for either Generators or Dual-grid ATS Solutions.
Model Range & Current Ratings – Three Frame Sizes Covering 16A to 630A
| Model | Rated Operating Current Ie | Rated Voltage | Poles | Mechanical Life | Electrical Life | Typical Application |
|---|---|---|---|---|---|---|
| HYT3P-125 | 16A – 125A | AC 230V (2P) / AC 400V (3P, 4P) | 2P, 3P, 4P | 10,000 | 1,500 | Residential generators, small commercial backup |
| HYT3P-250 | 125A – 250A | AC 230V (2P) / AC 400V (3P, 4P) | 2P, 3P, 4P | 8,000 | 1,200 | Light industrial, multi-tenant buildings |
| HYT3P-630 | 315A – 630A | AC 400V (3P, 4P) | 3P, 4P | 6,000 | 1,000 | Main incomers, large diesel generator sets |
The HYT3P series covers a variety of amperages that can be used with automatic transfer switches. The 125A frame is designed for small businesses and homes as an automatic transfer switch that operates in a single phase with a 2P configuration for 230V AC. The 250A and 630A frames are generally used in commercial and industrial settings as 3-phase transfer switches, using 3P or 4P configurations for 400V AC. All models are rated at AC-33B (mixed resistive and motor loads) and have an insulation voltage rating of 800V, with the largest frame capable of withstanding 12kV of impulse voltage.
Integrated Controller – Full Fault Detection & Automatic Transfer Logic
The HYT3P includes a microcontroller-based sensing system that continuously monitors both power sources to detect one of three conditions that would cause the complete transfer of the contact to occur due to the failure of the primary power source: undervoltage (transfer threshold 160V ±10%), phase loss, or complete loss of voltage. The contact transfer occurs within 0.6 seconds, and the total transfer cycle of the controller (including processing time) is completed within 1.3 seconds. A programmable return to transfer delay prevents nuisance cycling after the primary source has resumed service after a failure. In maintenance situations, the manual override mode allows the operator to have complete control of the transfer switches with three different switch positions (I – 0 – II), which is essential for safety when working on the electrical systems where the generator transfer switch is located.
Technical Specifications
| Product Model | HYT3P Series Automatic Transfer Switch Equipment (ATSE) |
| Standard | GB/T 14048.11 |
| Rated Operating Current Ie | 16A – 630A (HYT3P-125: 16A–125A / HYT3P-250: 125A–250A / HYT3P-630: 315A–630A) |
| Rated Operating Voltage Ue | 2P: AC 230V/50Hz | 3P, 4P: AC 400V/50Hz |
| Rated Insulation Voltage Ui | 800V |
| Rated Impulse Withstand Uimp | 8kV (HYT3P-125 / HYT3P-250); 12kV (HYT3P-630) |
| Rated Short-circuit Making Icm | 17kA (HYT3P-125 / HYT3P-250); 25kA (HYT3P-630) |
| Rated Short-time Withstand Icw | 10kA/30ms (HYT3P-125 / HYT3P-250); 15kA/60ms (HYT3P-630) |
| Contact Transfer Time | 0.6s ±20% |
| Operating Transfer / Return Transfer | 1.3s ±10% |
| Power Off Time | 0.6s ±20% |
| Poles | 2P, 3P, 4P |
| Switch Positions | (Ⅰ) – (0) – (Ⅱ) |
| Operation Method | Auto / Manual |
| Rated Control Supply Voltage Us | AC 230V/50Hz |
| Undervoltage Conversion Threshold | 160V ±10% |
| Utilization Category | AC-33B |
| Product Electrical Grade | PC class |
| Electromagnetic Compatibility | B |
| Pollution Grade | 3 |
| Protection Degree | IP20 |
| Installation Method | Vertical fixed installation |
| Wiring Method | Screw connection |
| Screw Tightening Torque | 3.5 N·m (HYT3P-125) / 8 N·m (HYT3P-250) / 12 N·m (HYT3P-630) |
| MOQ | Contact for project quotation |
Request a Project Quotation for HYT3P Automatic Transfer Switches – Factory Direct
16A–630A, PC class ATSE. 2P for AC 230V single-phase, 3P/4P for AC 400V 3-phase dual power systems. Automatic undervoltage / phase loss / loss-of-voltage detection, ≤0.6s transfer. OEM branding and full IEC-equivalent documentation. Contact us with your specifications for pricing and lead time.
Project-Based Quotation • GB/T 14048.11 • Worldwide Shipping
OEM/ODM Supply – PC-Class ATS for Critical Backup and Dual Power Systems
HYT3P – High-Reliability Dual Power Changeover for Demanding Installations
Basic contactor-based changeover switches risk contact welding under short-circuit conditions. The HYT3P’s PC class rating certifies its ability to withstand short circuits without contact welding — a vital safety measure for use in generator transfer switches or applications downstream of transformers with high fault levels. Additionally, the built-in digital controller allows adjustment of undervoltage thresholds and return transfer delay times to provide more precise system configurations for fluctuating grid conditions. As a robust alternative to competitors such as Socomec, ABB, and Schneider Electric, the HYT3P offers equivalent PC-class performance with private labeling and comprehensive test documentation features tailored to OEMs and B2B buyers.
How to Select a PC-Class Automatic Transfer Switch – Poles, Frame Size & Function
Essential selection criteria for the HYT3P ATS, covering single-phase and 3-phase generator backup and dual-grid applications.
1. Choosing the Correct Number of Poles
The HYT3P supports 2P, 3P, and 4P configurations. For single-phase automatic changeover switch applications on AC 230V supplies, select 2P. For three-phase automatic transfer switch installations at AC 400V where neutral isolation is not required, select 3P. Choose 4P when complete neutral switching is necessary — common in generator backup systems where the generator neutral is independently bonded. Having all three pole options within a single product series simplifies procurement and standardizes installation across mixed project requirements.
2. Matching Frame Size to Load
The HYT3P-125 covers 16A–125A, sufficient for most residential backup generators and small commercial ATS panels. The HYT3P-250 (125A–250A) serves larger homes, apartment blocks, and light industrial feeder circuits. The HYT3P-630 (315A–630A) is engineered for main incomer duty in hospitals, data centers, and industrial plants. Always size the switch to the maximum continuous connected load rather than the generator output, and verify that the selected frame’s short-circuit making capacity (17kA or 25kA) exceeds the calculated prospective fault current at the point of installation.
3. PC Class – Why It Matters for Safety
The HYT3P is rated PC class, meaning it has been type-tested to withstand short-circuit currents in the closed position without contact welding. In dual power installations downstream of high-capacity transformers, fault levels can easily exceed 10kA. A CB-class switch may weld its contacts under these conditions, leading to failure to transfer. The PC class rating provides documented assurance that the switch will survive a fault event and remain operational — a critical distinction for life-safety and business-continuity applications.
4. Control and Commissioning
The HYT3P’s integrated controller operates from an AC 230V control supply and triggers transfer at an undervoltage threshold of 160V ±10%. The three-position manual switch (I – 0 – II) provides positive isolation during commissioning and maintenance. For integration with building management or remote monitoring systems, the switch can be paired with auxiliary relays for status indication of both primary and secondary source availability.
Frequently Asked Questions
How does the automatic changeover switch work?
An automatic changeover switch (ATS) continuously monitors the voltage of the primary power source. The HYT3P’s internal controller checks for undervoltage, phase loss, and loss of voltage. When a fault is detected, the controller triggers the motorized mechanism to transfer the load to the standby source (such as a generator) within 0.6 seconds (contact transfer time). Once the primary source stabilizes, the switch can automatically transfer back after a preset delay, ensuring uninterrupted power for critical loads without manual intervention.
What are the common problems with ATS panels?
The most frequent problems with ATS panels are contact welding during short circuits and nuisance transfers caused by overly sensitive voltage thresholds. The HYT3P addresses the first issue with its PC class rating — the contacts are tested to withstand short-circuit currents without welding. The second is managed through the controller’s adjustable undervoltage threshold. Other common issues include loose wiring connections and failure to exercise the switch periodically; following the recommended annual operational test and torque check prevents most field failures.
Is there an automatic transfer switch suitable for single-phase generators?
Yes, the HYT3P-125 and HYT3P-250 are ideal automatic transfer switches for generators in residential and light commercial applications. Configured in 2P for AC 230V single-phase systems, they cover the most common home backup generator amperages from 16A through to 250A. All models include the same PC-class rating and integrated controller as the larger 3-phase units, so there is no compromise on safety or functionality when choosing the single-phase variant.
Is it legal to install your own transfer switch?
Installing an automatic transfer switch involves connecting the utility supply, a standby generator, and the building’s distribution panel. This work must be performed by a licensed electrician in virtually all jurisdictions to comply with local wiring regulations and safety codes. While the HYT3P is designed for straightforward vertical fixed installation with screw connections, professional installation is essential to ensure proper grounding, correct source isolation, and compliance with grid interconnection requirements. Always consult applicable local codes before installation.
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